Inflatable belt d-ring assembly for a vehicle

ABSTRACT

A D-ring assembly for an inflatable belt of a vehicle includes a patch bracket, in which a portion of the patch bracket supporting a D-ring is inclined forward with respect to a portion of the patch bracket fixed to a pillar of the vehicle; and the D-ring installed at the patch bracket to be rotatable in a left or right direction, so that the two-layer webbing is guided toward the front of a wearer, allowing a passenger to easily wear the webbing.

TECHNICAL FIELD

The present invention relates to a belt bag pillar loop assembly for a vehicle. More particularly, the present invention relates to a belt bag pillar loop assembly for a vehicle including a patch bracket and a pillar loop.

BACKGROUND ART

In general, a seat belt for a vehicle includes a seat belt, a webbing, a retractor, a pillar loop, a tongue, and a buckle.

Functions of main components of the seat belt for a vehicle are as follows:

The webbing surrounds the body of a passenger.

The retractor allows the webbing to be tightly strained and in addition, winds a surplus portion of the webbing to keep the surplus portion.

The pillar loop is installed in the vehicle to guide the webbing toward the shoulder of a passenger.

The tongue may fix the webbing.

The buckle is fixed to one side of the seat of the vehicle to detachably support the tongue.

Recently, the webbing of the seat belt for a vehicle is configured in a shape of an inflatable bag, and the belt bag for a vehicle, in which the inflator is installed to one end of the webbing, is actually applied to a vehicle.

If the inflator is activated by an actuation signal of an ECU (Electric Control Unit) or a BCU (Belt-bag Control Unit) when a vehicle accident occurs, the belt bag for a vehicle allows the inflator to generate a high-pressure gas, so that the deflated webbing is inflated by the high-pressure gas.

Thus, the belt bag for a vehicle may provide a wearer with a higher level of safety than a seat belt for a vehicle, a webbing of which is not inflated.

The basic configuration and operation of the belt bag for a vehicle are disclosed in Korean patent publication Nos. 10-1995-0023558 (Published on Aug. 18, 1995) and 10-2012-0041507 (Published on May 2, 2012).

Meanwhile, the belt bag for a vehicle includes all main components of the seat belt for a vehicle described above, and further includes an inflator for generating a high-pressure gas which is supplied into the webbing.

The present invention relates to an effective installation of a pillar loop which guides a webbing drawn from a retractor of the belt bag for a vehicle toward a passenger.

A seat belt for a vehicle is disclosed in Korean unexamined patent publication No. 10-2006-0025394 (Published on Mar. 21, 2006) and an apparatus for guiding a seat belt for a vehicle is disclosed in Korean unexamined patent publication No. 10-2006-0069669 (Published on Jun. 22, 2006).

The pillar loop of the seat belt for a vehicle disclosed in Korean unexamined patent publication No. 10-2006-0025394 (Published on Mar. 21, 2006) is connected to a height control apparatus and can move upward and downward.

Thus, according to Korean unexamined patent publication No. 10-2006-0025394, the passenger adjusts the height of the pillar loop according the body shape of the passage to effectively wear the webbing.

The pillar loop of the seat belt for a vehicle disclosed in Korean unexamined patent publication No. 10-2006-0069669 is freely rotated in left and right directions with respect to a bracket fixed to a pillar of a vehicle.

Thus, according to Korean unexamined patent publication No. 10-2006-0069669, while the pillar loop of the seat belt for a vehicle is rotated at a suitable angle according to a passengers body shape, the pillar loop changes the withdrawing direction of the webbing so that effective wear of the webbing may be expected.

(Patent document 1) Korean unexamined patent publication No. 10-1995-0023558 (Published on Aug. 18, 1995)

(Patent document 2) Korean unexamined patent publication No. 10-2012-0041507 (Published on May 2, 2012)

(Patent document 3) Korean unexamined patent publication No. 10-2006-0025394 (Published on Mar. 21, 2006)

(Patent document 4) Korean unexamined patent publication No. 10-2006-0069669 (Published on Jun. 22, 2006)

DISCLOSURE OF INVENTION Technical Problem

However, according to the related art including the patent documents 1 and 2 described above, the pillar loop which is installed at a front of the bracket fixed to the pillar of a vehicle is placed in parallel with the pillar.

Thus, the webbing passing through the pillar loop is guided toward a side of a wearer, so that it is inconvenient to wear the webbing.

That is, although the webbing must be placed at the front of the wearer, according to the related art, the pillar loop guides the webbing toward a side of the wearer.

In addition, the webbing having a shape of an inflatable bag is prepared in a two-layer structure other than a one-layer structure adopted in a conventional seat belt for a vehicle.

Thus, in a case that the related art is applied to a belt bag for a vehicle, if the webbing is not smoothly induced toward the front of the wearer when the webbing is withdrawn, it is difficult for the webbing to pass through the pillar loop.

For example, while the two-layer webbing is passing through the pillar loop, the webbing may be bent or lumped, so that it may be difficult to wear the webbing.

The present invention is provided to solve the above problems.

Accordingly, it is an object of the present invention to provide a belt bag pillar loop assembly for a vehicle which can smoothly guide a two-layer webbing toward a front of a wearer to allow a passenger to easily wear the webbing.

Solution to Problem

According to one aspect of the present invention, there is provided a belt bag pillar loop assembly for a vehicle. The belt bag pillar loop assembly may include a patch bracket in which a portion of the patch bracket supporting a pillar loop is inclined forward with respect to a portion of the patch bracket fixed to a pillar of the vehicle; and the pillar loop installed at the patch bracket to be rotatable in a left or right direction.

The patch bracket may include a pillar fixing part fixed to the pillar of the vehicle; a horizontal bending part, in which one side the horizontal bending part provided at a lower front end of the pillar fixing part has a width narrower than a width of an opposite side of the pillar fixing part to have a trapezoidal shape; and a pillar loop support part vertically bent at a front of the horizontal bending part.

A fixing bolt insertion hole may be formed at the pillar fixing part and a rivet insertion hole may be formed at the pillar loop support part.

An inserting protrusion may be formed at a rear of a central portion of an upper end of the pillar fixing part, and a T-shaped lock piece may be provided at a rear of a central portion of a lower end of the pillar loop support part in parallel to the inserting protrusion.

The pillar loop may include a connection plate connected to the pillar loop support part of the patch bracket and a slip guide provided at a lower portion of a front surface of a connection plate.

A gradient angle of the pillar loop support part with respect to the pillar fixing part of the patch bracket may be in a range of 5° to 25°.

Advantageous Effects of Invention

According to the belt bag pillar loop assembly for a vehicle of the present invention, the pillar loop is installed to smoothly induce the webbing toward the front of the wearer when the wearer draws the two-layer webbing to wear the webbing.

Thus, a passenger can more easily wear the webbing.

After completing the wear of the webbing, even when the wearer separates the tongue from the buckle so that the webbing is wound around the retractor, the webbing can smoothly pass through the pillar loop, facilitating the reception and keep of the webbing.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is an exploded perspective view showing a belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention;

FIG. 2 is a perspective view showing a belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention;

FIG. 3 is a plan view showing the belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention; and

FIG. 4 is a view showing an installed state of the belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention.

MODE FOR THE INVENTION

Hereinafter, a belt bag pillar loop assembly for a vehicle according to a preferable embodiment of the present invention will be described in more detail with reference to accompanying drawings.

FIG. 1 is an exploded perspective view showing a belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention.

The belt bag pillar loop assembly 100 for a vehicle according to an embodiment of the present invention includes a patch bracket 110 and a pillar loop 120.

As shown in FIG. 1, the patch bracket 110 includes a horizontal bending part 112 provided at the front of a lower end of the pillar fixing part 111.

A pillar loop support part 113 is vertically bent at the front of the horizontal bending part 112.

The horizontal bending part 112 of the patch bracket 110 has one side having a width narrower than that of the opposite side so that the horizontal bending part 112 has a trapezoidal shape.

Therefore, the pillar loop support part 113 is inclined forward at a predetermined tilt angle A with respect to the pillar fixing part 111.

A fixing bolt insertion hole 114 is formed in the pillar fixing part 111 and a rivet insertion hole 115 is formed in the pillar loop support part 113.

An inserting protrusion 116 is formed at a rear of a central portion of an upper end of the pillar fixing part 111, and a T-shaped lock piece 117 is provided at a rear of a central portion of a lower end of the pillar loop support part 113 in parallel to the inserting protrusion 116.

The patch bracket 110 is fixed to the pillar 400 by using a fixing bolt 130 which passes through the fixing bolt insertion hole 114 prepared at the pillar fixing part 111 to be combined with the pillar 400 of a vehicle.

As shown in FIG. 1, the pillar loop includes a slip guide 122 which is provided at a lower portion of a front surface of a connection plate 121 and through which a webbing 300 passes.

A rivet insertion hole 123 is formed at an upper central portion of the connection plate 121 of the pillar loop 120.

FIG. 2 is a perspective view showing a belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention.

The pillar loop 120 is rotatable in left and right directions and installed at the front of the pillar loop support part 113 by using a rivet 140 which passes through the rivet insertion holes 123 and 115 of the connection plate 121 and the patch bracket 110.

As shown in FIG. 2, the pillar loop 120 is inclined forward at a predetermined gradient angle A with respect to the pillar fixing part 111 of the patch bracket 110.

FIG. 3 is a plan view showing the belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention.

As shown in FIG. 3, the pillar loop support 113 and the pillar loop 120 are inclined forward at a predetermined gradient angle A about the pillar fixing part 111 of the patch bracket 110 tightly fixed to the pillar 400 of a vehicle.

Thus, when a user draws the webbing 300 withdrawn inside the vehicle through the slip guide 122 of the pillar loop 120 installed at the front of the pillar loop support part 113 of the patch bracket 100 in order to wear the webbing 300, the webbing 300 is smoothly induced to the front of the user.

When the webbing 300 is induced toward the front of the user, the webbing 300 is more smoothly withdrawn so that the user can be more easily wear the webbing 300.

Further, the webbing 300 released from the passenger is more stably received.

Meanwhile, the gradient angle A of the pillar loop support part 113 with respect to the pillar fixing part 111 of the patch bracket 110, that is, the installation angle of the pillar loop 120 with respect to the pillar fixing part 111 of the patch bracket 110 may be adjusted according to a specification of the vehicle.

Preferably, the gradient angle A of the pillar loop support part 113 or the installation angle of the pillar loop 120 is set to give the passenger with the best withdrawing sense.

For example, the gradient angle A of the pillar loop support part 113 may be set in the range of 5° to 25°. Preferably, the gradient angle A is set at 10°.

When the gradient angle A of the pillar loop support part 113 is less than 5°, it is difficult to induce the webbing 300 toward the front of the user wearing the webbing 300.

If the gradient angle A of the pillar loop support part 113 exceeds 25°, the webbing 300 may deviate far from the body of the wearer.

Reference numeral 500 denotes a pillar trim.

FIG. 4 is a view showing an installed state of the belt bag pillar loop assembly for a vehicle according to an embodiment of the present invention.

The belt bag pillar loop assembly 100 for a vehicle may be applied to a commercial seat belt for a vehicle having a one-layer webbing.

Pillars are the structural uprights that support a vehicles roof. The pillars are designated by letters of the alphabet, starting at the front with A. The A-pillar is the one that joins a windshield and the front side windows. In sedans, a C-pillar is the one that joins the rear window to the rear side windows. Even if the vehicle seems to have no B-pillar between the front and rear side doors, the rearmost pillar is usually referred to as C. The pillars can continue, the rearmost pillar in a station wagon is usually a D-pillar.

The pillar 400 as described above includes the A through D pillars and other structural uprights that support the vehicle's roof.

The pillar loop assembly 100 may be provided to at least one of the pillars that support the vehicle's roof.

Although an exemplary embodiment of the present invention has been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. 

1. A D-ring assembly for an inflatable belt of a vehicle, the D-ring assembly comprising: a patch bracket in which a portion of the patch bracket supporting a D-ring is inclined forward with respect to a portion of the patch bracket fixed to a pillar of the vehicle; and the D-ring installed at the patch bracket (110) rotatable in a left direction or a right direction.
 2. The D-ring assembly of claim 1, the patch bracket comprising: a pillar fixing part fixed to the pillar of the vehicle; a horizontal bending part, in which one side the horizontal bending part provided at a lower front end of the pillar fixing part has a width narrower than a width of an opposite side of the pillar fixing part to have a trapezoidal shape; and a D-ring support part vertically bent at a front of the horizontal bending part.
 3. The D-ring assembly of claim 2, wherein a fixing bolt insertion hole is formed at the pillar fixing part, and a rivet insertion hole is formed at the D-ring support part.
 4. The D-ring assembly of claim 2, wherein an inserting protrusion is formed at a rear of a central portion of an upper end of the pillar fixing part, and a T-shaped lock piece is provided at a rear of a central portion of a lower end of the D-ring support part in parallel to the inserting protrusion.
 5. The D-ring assembly of claim 1, wherein the D-ring includes a connection plate connected to the D-ring support part of the patch bracket and a slip guide provided at a lower portion of a front surface of a connection plate.
 6. The D-ring assembly of claim 1, wherein a gradient angle of the D-ring support part with respect to the pillar fixing part of the patch bracket is in a range of 5° to 25°. 